A universal GRB photon energy-peak luminosity relation

Abstract

The energetics and emission mechanism of GRBs are not well understood. Here we demonstrate that the instantaneous peak flux or equivalent isotropic peak luminosity, Liso ergs s-1, rather than the integrated fluence or equivalent isotropic energy, Eiso ergs, underpins the known high-energy correlations. Using new spectral/temporal parameters calculated for 101 bursts with redshifts from BATSE, BeppoSAX, HETE-II and Swift we describe a parameter space which characterises the apparently diverse properties of the prompt emission. We show that a source frame characteristic-photon-energy/peak luminosity ratio, Kz, can be constructed which is constant within a factor of 2 for all bursts whatever their duration, spectrum, luminosity and the instrumentation used to detect them. The new parameterization embodies the Amati relation but indicates that some correlation between Epeak and Eiso follows as a direct mathematical inference from the Band function and that a simple transformation of Eiso to Liso yields a universal high energy correlation for GRBs. The existence of Kz indicates that the mechanism responsible for the prompt emission from all GRBs is probably predominantly thermal.